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Neural Surface Antigens: From Basic Biology towards Biomedical Applications focuses on the functionalrole of surface molecules in neural development, stem cell research, and translational biomedical paradigms.With an emphasis on human and rodent model systems, this reference covers fundamentals of neural stemcell biology and flow cytometric methodology. Addressing cell biologists as well as clinicians working in theneurosciences, the book was conceived by an international panel of experts to cover a vast array of particularsurface antigen families and subtypes. It provides insight into the basic biology and functional mechanisms ofneural cell surface signaling molecules influencing mammalian development, regeneration, and treatments. - Introduces early phase clinical trials of neural stem cells - Outlines characterization of surface molecule expression and methods for isolation which open unprecedented opportunities for functional study, quantitation & diagnostics - Highlights the role of stem cells in neural surface antigen and biomarker analysis and applications
With the contribution from more than one hundred CNS neurotrauma experts, this book provides a comprehensive and up-to-date account on the latest developments in the area of neurotrauma including biomarker studies, experimental models, diagnostic methods, and neurotherapeutic intervention strategies in brain injury research. It discusses neurotrauma mechanisms, biomarker discovery, and neurocognitive and neurobehavioral deficits. Also included are medical interventions and recent neurotherapeutics used in the area of brain injury that have been translated to the area of rehabilitation research. In addition, a section is devoted to models of milder CNS injury, including sports injuries.
This 1999 edition of The Neural Crest contains comprehensive information about the neural crest, a structure unique to the vertebrate embryo, which has only a transient existence in early embryonic life. The ontogeny of the neural crest embodies the most important issues in developmental biology, as the neural crest is considered to have played a crucial role in evolution of the vertebrate phylum. Data that analyse neural crest ontogeny in murine and zebrafish embryos have been included in this revision. This revised edition also takes advantage of recent advances in our understanding of markers of neural crest cell subpopulations, and a full chapter is now devoted to cell lineage analysis. The major research breakthrough since the first edition has been the introduction of molecular biology to neural crest research, enabling an elucidation of many molecular mechanisms of neural crest development. This book is essential reading for students and researchers in developmental biology, cell biology, and neuroscience.
Contributors discuss the history of the discovery of the antigen (in 1963), its structure and peculiar distribution (appearing on both nerve and lymph cells), the genes that regulate it, its expression under various conditions, immune responses to it, mitotic triggering, suppressor T cells, and neuroimmunology (on the relationship between the nervous and lymphoid systems). The concluding chapter advances a theory that the function of Thy-1 may vary in different tissues and different species. Annotation(c) 2003 Book News, Inc., Portland, OR (booknews.com)
A fundamental problem in neuroscience is the elucidation of the cellular and molecular mechanisms underlying the development and function of the nervous system. The complexity of organization, the heteroge neity of cell types and their interactions, and the difficulty of controlling experimental variables in intact organisms make this a formidable task. Because of the ability that it affords to analyze smaller components of the nervous system (even single cells in some cases) and to better control experimental variables, cell culture has become an increasingly valuable tool for neuroscientists. Many aspects of neural development, such as proliferation, differentiation, synaptogenesis, and myelination, occur in culture with time courses remarkably similar to those in vivo. Thus, in vitro methods often provide excellent model systems for investigating neurobiological questions. Ross Harrison described the first culture of neural tissue in 1907 and used morphological methods to analyze the cultures. Since that time the technique has been progressively modified and used to address an ever widening range of developmental questions. In recent years a con vergence of new or improved cell culture, biochemical, electrophysiol ogical, and immunological methods has occurred and been brought to bear on neurobiological questions. This volume is intended not to be comprehensive but rather to highlight some of the latest findings, with a review of previous important work as well, in which combinations of these methods are used.